#ifndef BFORMATDEC_H #define BFORMATDEC_H #include "alMain.h" /* These are the necessary scales for first-order HF responses to play over * higher-order 2D (non-periphonic) decoders. */ #define W_SCALE2D_SECOND 1.224744871f /* sqrt(1.5) */ #define XYZ_SCALE2D_SECOND 1.0f #define W_SCALE2D_THIRD 1.414213562f /* sqrt(2) */ #define XYZ_SCALE2D_THIRD 1.082392196f /* These are the necessary scales for first-order HF responses to play over * higher-order 3D (periphonic) decoders. */ #define W_SCALE3D_SECOND 1.341640787f /* sqrt(1.8) */ #define XYZ_SCALE3D_SECOND 1.0f #define W_SCALE3D_THIRD 1.695486018f #define XYZ_SCALE3D_THIRD 1.136697713f struct AmbDecConf; struct BFormatDec; struct AmbiUpsampler; struct BFormatDec *bformatdec_alloc(); void bformatdec_free(struct BFormatDec *dec); void bformatdec_reset(struct BFormatDec *dec, const struct AmbDecConf *conf, ALsizei chancount, ALuint srate, const ALsizei chanmap[MAX_OUTPUT_CHANNELS]); /* Decodes the ambisonic input to the given output channels. */ void bformatdec_process(struct BFormatDec *dec, ALfloat (*restrict OutBuffer)[BUFFERSIZE], ALsizei OutChannels, const ALfloat (*restrict InSamples)[BUFFERSIZE], ALsizei SamplesToDo); /* Up-samples a first-order input to the decoder's configuration. */ void bformatdec_upSample(struct BFormatDec *dec, ALfloat (*restrict OutBuffer)[BUFFERSIZE], const ALfloat (*restrict InSamples)[BUFFERSIZE], ALsizei InChannels, ALsizei SamplesToDo); /* Stand-alone first-order upsampler. Kept here because it shares some stuff * with bformatdec. */ struct AmbiUpsampler *ambiup_alloc(); void ambiup_free(struct AmbiUpsampler *ambiup); void ambiup_reset(struct AmbiUpsampler *ambiup, const ALCdevice *device); void ambiup_process(struct AmbiUpsampler *ambiup, ALfloat (*restrict OutBuffer)[BUFFERSIZE], ALsizei OutChannels, const ALfloat (*restrict InSamples)[BUFFERSIZE], ALsizei SamplesToDo); /* Band splitter. Splits a signal into two phase-matching frequency bands. */ typedef struct BandSplitter { ALfloat coeff; ALfloat lp_z1; ALfloat lp_z2; ALfloat hp_z1; } BandSplitter; void bandsplit_init(BandSplitter *splitter, ALfloat freq_mult); void bandsplit_clear(BandSplitter *splitter); void bandsplit_process(BandSplitter *splitter, ALfloat *restrict hpout, ALfloat *restrict lpout, const ALfloat *input, ALsizei count); #endif /* BFORMATDEC_H */